Cell type specificity of female lung cancer associated with sulfur dioxide from air pollutants in Taiwan: An ecological study

Tseng, Ching-Yu; Huang, Yi‐Chia; Su, Shih‐Yung; Huang, Jing‐Yang; Lai, Cheng-Hsiu; Lung, Chia-Chi; Ho, Chien-Chang; Liaw, Yung‐Po

doi:10.1186/1471-2458-12-4

Cited by 26 publications

(15 citation statements)

References 51 publications

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“…The average ambient SO 2 in 5 monitor stations varied from 177 to 231 µg/m 3 in Taiyuan city in 2000 [45], and sulfur-rich particles account for 10.7% of total particles in Taiyuan [46]. SO 2 is also associated with higher lung cancer incidence [47]. Coal consumption accounts for 65% share of the primary energy consumption in 2002 in China, and it has been predicted that if smoking and solid fuel use remain at current levels between 2003 and 2033, 74% of lung cancer deaths will be attributable to the combined effects of smoking and solid-fuel use[48].…”

Section: Discussionmentioning

confidence: 99%

Indoor air pollution and risk of lung cancer among Chinese female non-smokers

Liu²,

Niu

et al. 2013

Cancer Causes Control

151

102

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Purpose To investigate indoor particulate matter (PM) level and various indoor air pollution exposure, and to examine their relationships with risk of lung cancer in an urban Chinese population, with a focus on non-smoking women. Methods We conducted a case-control study in Taiyuan, China, consisting of 399 lung cancer cases and 466 controls, of which 164 cases and 218 controls were female non-smokers. Indoor PM concentrations, including PM1, PM2.5, PM7, PM10 and TSP, were measured using a particle mass monitor. Unconditional logistic regression models were used to calculate odds ratios (ORs) and 95% confidence intervals after adjusting for age, education, annual income and smoking. Results Among non-smoking women, lung cancer was strongly associated with multiple sources of indoor air pollution 10 years ago, including heavy exposure to ETS at work (aOR=3.65), high frequency of cooking (aOR=3.30), and solid fuel usage for cooking (aOR=4.08) and heating (aORcoal stove=2.00). Housing characteristics related to poor ventilation, including single-story, less window area, no separate kitchen, no ventilator and rarely having windows open, are associated with lung cancer. Indoor medium PM2.5 concentration was 68ug/m3, and PM10 was 230ug/m3. PM levels in winter are strongly correlated with solid fuel usage for cooking, heating and ventilators. PM1 levels in cases are more than 3-time higher than that in controls. Every 10 ug/m3 increase in PM1 is associated with 45% increased risk of lung cancer. Conclusions Indoor air pollution plays an important role in the development of lung cancer among non-smoking Chinese women.

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Section: Discussionmentioning

confidence: 99%

Indoor air pollution and risk of lung cancer among Chinese female non-smokers

Liu²,

Niu

et al. 2013

Cancer Causes Control

151

102

View full text Add to dashboard Cite

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“…The main outdoor source of sulfur dioxide is the combustion of sulfur‐containing minerals, mainly coal and petroleum, in the commercial industry . Sulfur dioxide is water soluble and easily inhaled into the respiratory tract where it forms sulfurous acid and sulfuric acid . These acids are strong irritants and have burning effects on the human respiratory tract.…”

Section: Environmental Pollutantsmentioning

confidence: 99%

Environmental pollutants damage airway epithelial cell cilia: Implications for the prevention of obstructive lung diseases

et al. 2020

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Mucociliary epithelium lining the upper and lower respiratory tract constitutes the first line of defense of the airway and lungs against inhaled pollutants and pathogens. The concerted beating of multiciliated cells drives mucociliary clearance. Abnormalities in both the structure and function of airway cilia have been implicated in obstructive lung diseases. Emerging evidence reveals a close correlation between lung diseases and environmental stimuli such as sulfur dioxide and tobacco particles. However, the underlying mechanism remains to be described. In this review, we emphasize the importance of airway cilia in mucociliary clearance and discuss how environmental pollutants affect the structure and function of airway cilia, thus shedding light on the function of airway cilia in preventing obstructive lung diseases and revealing the negative effects of environmental pollutants on human health.

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“…Although the overall rate of deaths due to heart disease in the US continues to decline, 8-13 a few investigations from the US and Europe have observed a leveling off or increase in heart disease deaths among some age groups. 14,15 It has been proposed that observations of an end to declines in mortality might have resulted from substantial increases in two major risk factors for coronary artery disease, namely diabetes mellitus and obesity.…”

mentioning

confidence: 99%

Trends in Coronary Atherosclerosis: A Tale of Two Population Subgroups

Nemetz

Smith

Bailey

et al. 2016

The American Journal of Medicine

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BACKGROUND We previously investigated trends in subclinical coronary artery disease and associated risk factors among autopsied non-elderly adults who died from non-natural causes. Although grade of atherosclerosis declined from 1981 through 2009, the trend was non-linear, ending in 1995, concurrent with increasing obesity/diabetes in this population. The previous study used linear regression and examined trends for all four major epicardial coronary arteries combined. The present investigation of coronary artery disease trends for the period 1995 through 2012 was prompted by a desire for more detailed examination of more recent coronary artery disease trends in light of reports that the epidemics of obesity and diabetes have slowed and are perhaps ending. METHODS This population-based series of cross-sectional investigations identified all Olmsted County, Minnesota, residents age 16 through 64 years who died 1995 through 2012 (N=2,931). For decedents with non-natural manner of death, pathology reports were reviewed for grade of atherosclerosis assigned each major epicardial coronary artery. Using logistic regression, we estimated calendar-year trends in grade (unadjusted and age- sex-adjusted) for each artery, initially as an ordinal-measure (range=0-4); then, based on evidence of non-proportional odds, as a dichotomous variable (any atherosclerosis yes/no) and as an ordinal-measure for persons with atherosclerosis (range=1-4). RESULTS Of 474 non-natural deaths, 453 (96%) were autopsied; 426 (90%) had coronary stenosis graded. In the ordinal-logistic model for trends in coronary artery disease grade (range=0-4), the proportional-odds assumption did not hold. In subsequent analysis as a dichotomous outcome (grades 0 versus 1-4), each artery exhibited a significant temporal decline in the proportion with any atherosclerosis. Conversely, for subjects with coronary artery disease grade=1-4, age- sex-adjusted ordinal-regression revealed no change over time in two arteries and statistically significant temporal increases in severity in two arteries. CONCLUSIONS Findings suggest that efforts to prevent coronary artery disease onset have been relatively successful. However, statistically significant increases in the grade of atherosclerosis in two arteries among persons with coronary artery disease may be indicative of a major public health challenge.

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Cell type specificity of female lung cancer associated with sulfur dioxide from air pollutants in Taiwan: An ecological study

Cited by 26 publications

References 51 publications

Indoor air pollution and risk of lung cancer among Chinese female non-smokers

Indoor air pollution and risk of lung cancer among Chinese female non-smokers

Environmental pollutants damage airway epithelial cell cilia: Implications for the prevention of obstructive lung diseases

Trends in Coronary Atherosclerosis: A Tale of Two Population Subgroups

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